Gerald Leigh Lectures 2024 - Optimizing Youngstock Growth and Development

Adam Jackson MRCVS

Beaufort Cottage Educational Trust hosted the annual Gerald Leigh Memorial Lectures at Tattersalls in Newmarket, UK on June 11th.  These lectures are in association with the Gerald Leigh Charitable Trust as a way of recognising Mr. Leigh’s achievements as a racehorse owner and breeder as well as continuing his passion for scientific knowledge and welfare of horses in the race industry and the equine industry as a whole.  

Dr. Chavatte-Palmer provided a very insightful and interesting talk on the influence of maternal and environmental factors during the prenatal period on athletic performance.  The lecture discussed the phenomenon of Developmental Origins of Health and Disease (DOHAD) which is demonstrated with the increasing evidence of the role in parental nutrition and environmental conditions, from periods preceding conception and throughout gestation, on phenotypic development in horses.  She described how the nutritional environment before birth can affect the postnatal performance of the offspring as it is believed that nutrients can alter the way genes are expressed resulting in developmental trajectories that have repercussions on postnatal development.  With a strong understanding and knowledge in DOHAD, nutritional strategies can be considered and developed to optimize youngstock growth and development.  This is an exciting field as further research will potentially allow veterinarians and breeders to work cooperatively to optimize athleticism as well as the wellbeing and health of foals and mares. 

Dr. Joe Pagan of the Kentucky Equine Research to discuss equine feeding management practices and equine nutrition in sports medicine. His first lecture discussed the effects of season on mare and foal nutrition.  Through various studies some conclusions could be made and these conclusions do appear to be a global trend.  It was found that colts are heavier and taller than fillies.  

After 1 month of age, fillies were fatter than colts.  Foals born in January and February were smaller at birth and grew more slowly in early life but by 150 days of age this lag disappeared.  In addition, mare weight changes and body condition scores were related to season and management factors, as winter-foaling mares lost weight and had lower body condition post foaling than spring-foaling mares. 

Dr. Pagan continued with a lecture on the right balance for optimal growth and development of youngstock.  Recent research has shown that the health of the offspring of overweight mares may also be compromised. In addition, studies have shown that excess maternal nutrition during pregnancy can alter glucose and lipid (fat) metabolism in foals until 160 days of age.  Another study reported a higher incidence of osteochondrosis (OC) in foals born to dams that were fed concentrates during gestation rather than forage. 

A more recent study on the nutrition of the mare during the last trimester and subsequent foal health revealed some interesting observations.  It was found that the growth of foals from 6-24 months of age was not affected by maternal diet and maternal undernutrition appeared to affect bone growth as foals from dams fed forage only had narrower cannon bones than foals from dams fed forage and barley.  In addition, it was found that overfeeding negatively affected yearlings from mares fed barley and forage more than yearlings from broodmares fed only forage.  

Finally, there was a decrease in insulin sensitivity and enhanced insulin levels suggesting insulin dysregulation in yearlings from mares fed both barley and forage and not yearlings from forage-only mares.  Another exciting field of research that will also lead to greater cooperation of breeders and veterinarians in providing good health and wellbeing to foals and mares.   

These lectures had the pleasure of hosting Paul Overton, who is an equine agronomist with a strong understanding of pasture management.  His passion for his area of expertise and in helping with improving management of studs was abundant as he outlined the aims of pasture management that included the need to provide safe grazing pastures from parasites, colic and grass sickness, atypical myopathy and other ailments as well as to provide a safe area to exercise horses of all ages.  In addition, he made clear that fresh leafy bite grass in the paddocks all year round is key.  

We were reminded of the fundamentals of good basic pasture management that included a removal programme for muck, providing a dense leafy grass sward, sharing and mixing the paddock use with other livestock (sheep and cattle) and moving horses to various paddocks around the stud to maximize rest of all paddocks. To optimize paddock health, it should be remembered that all paddock management follows the horses around the seed, be guided by the weather rather than the calendar and work quickly to maximize rest periods. Finally, good simple paddock and grassland management can help a multitude of issues and every marginal gain is helpful. 

Julian Dollar gave us a wonderful insight into a stud manager’s approach to soundness.  It was an integral part of the lecture programme as it provided the audience with another perspective of stud management. He made it clear that a variety of factors must be considered when breeding and raising sound horses but two main criteria is a strong team and an attention to detail. 

The team needed is one that is completely dedicated and passionate about their horses and should consist of a veterinary service, farriers, nutrition/feed and land management support. There must be a cooperative work ethic in order to provide the best all round management as possible. This team must strive for excellence and work on marginal gains.
A sound breeding and rearing programme starts with mating focusing on sound parents, especially the mare, to produce sound offspring.  It is important to work with mother nature rather than interfering with it, thus focusing on a healthy environment. This strategy must be flexible that will allow one to provide the horses with a quality paddock. 

The offspring should be between 121lbs - 132lbs (55-60 kg) and they should have a seamless transition from birth to exercise and living out.  In addition, the foals should be monitored and assessed closely in order to achieve timely and maximum beneficial interventions that may include selective surgeries.  Finally, it is believed that the perfect preparation for a yearling to go into training would be some controlled exercise combined with turnout the rest of the time. 

Professor Jacqui Matthews, the director of Austin Davis Biologics, provided some sobering information on parasites and their resistance.  She explained that intestinal worms are found in most grazing animals and most breeding premises are at high infection risk due to the presence of young animals grazing permanent pastures as well as having a history of interval deworming treatments. 

In addition, wormer resistance is being reported in all major parasitic worms of horses.  Therefore, it is vital to have control plans that include a risk-assessment approach.  Professor Matthews made it very clear that we need to be concerned regarding parasites and their resistance to wormers and we need to act now.  She explained the action that is needed which includes evidence-based worm control.  This approach requires risk assessment that allows one to identify potential issues in the management, the avoidance of all horses regularly being treated, the assessment of wormer effectiveness as well as the effectiveness of interventions. 

With respect to the management, there are some principles behind reducing anthelmintic use.  Good pasture hygiene can substantially reduce infective egg and larval stages in the environment and the lowering of this pasture contamination decreases parasites acquired when grazing.  Pasture management must include: 

  • Dung removal works! Full removal of dung at least once per week and place it away from pastures and water courses.  

  • Maintain low stocking density 

  • Rest pastures – ideally 12 months and avoid grazing foals on same paddocks every year 

  • Consider grazing with ruminants between equine groups 

With respect to treatment, make informed choices by using various tests such as fecalfaecal worm egg counts, fecal egg count reduction test, antibody-based tests to identify worms, and other tests.  Ultimately, do not blindly treat horses without considering the reason for worming and assessing wormer effectiveness. 

Professor Matthews followed up with a second lecture on integrating diagnostics into sustainable equine helminth control programmes.  An integrated diagnostic-led control programme should consider: 

  • Fecal egg worm count in late winter if grazing year-round.  Recommend treatment if 200 or more eggs per gram and select your anthelmintic according to its sensitivity. 

  • Tapeworm test in spring to identify individuals with tapeworm burdens and treat infected individuals as these horses will contaminate the paddocks with cestode eggs. 

Late spring/early summer perform fecal egg worm count reduction test in order to assess anthelmintic effectiveness annually.  Worm all horses that have FEC of >200 eggs per gram.  Perform FEC test at day 0 and 14 days after treatment. Calculate the mean percentage.

  • Reduction in FEC between 0 and day 14 post treatment. 

  • In late summer/early autumn perform tapeworm test to identify individuals that have, over the summer grazing period, accumulated high tapeworm burdens which may put them at risk of colic  

In late fall perform a small redworm test.  In low infection-risk situations, test in late autumn/winter to identify individuals that do not require treatment for small redworm.  Use in low-risk groups where owners usually apply all-group larvicidal treatments.

With good pasture management one can lower the selection for resistance, leading to a lowering the need for wormer treatments, a lowering in the proportion of horses that test positive and a lowering of paddock contamination; therefore, less horses are likely to be infected and more likely to have lower burdens. 

With his 20 years of buying and selling thoroughbred bloodstock, Jamie Railton gave us a wonderful insight into the business of foal purchasing.  He discussed all of the variables that must be taken into account when selecting foals for purchase.  Skill and experience are needed in spotting the foal with the potential to increase in value because of its physical improvement and its pedigree.  He explained that a team of people are required as well as having a system to select foals; however, the system must be flexible and one must still want to continue to learn from the process and adapt and later the selection criteria. In addition, he discussed the need to reinvent oneself with the continuous change in the trends seen in the market. 

Dr. Rebecca Mouncey is a veterinary surgeon and post-doctoral research fellow, currently investigating early-life determinants of performance and economics of Thoroughbred breeding.  

Dr. Mouncey discussed how musculoskeletal disease and injury remains the greatest barrier to thoroughbreds being retained within the industry and realizing their maximum athletic potential, and is likely to have important economic consequences.  She explained that lameness/musculoskeletal injury and disease are the most common barriers to performance.  The causes of these conditions of developmental orthopedic diseases are fractures and tendon/ligament injuries. 

By improving the foal’s/yearling’s strength to withstand training and resist injury, while avoiding trauma, one can help with the prevention of these diseases.  Unfortunately, there are still important knowledge gaps. It is possible to optimize musculoskeletal health during early-life with exposure during critical stages of growth and development that changes the distribution of cell types, alters metabolic function and ultimately altering the susceptibility and injury in adulthood.  

Postnatally the period of greatest plasticity, response to external stimuli/exposures is during periods of most rapid growth and development.  By 24 months of age, the horse is 96% mature bodyweight and 98% mature height and reached peak bone mass.  There must be a balance in early-life exercise and activity as too little will delay musculoskeletal development and too much will cause tissue damage and trauma.  We must always consider the animal’s growth, nutrition and exercise as a whole and not mutually exclusive.  

Abigail Kent MRCVS from Rossdales Veterinary Surgeons, presented an interesting lecture on the diagnosis and treatment of limb deformities in foals.  Dr. Kent is very knowledgeable in all aspects of equine elective and emergency surgery and has a particular interest in orthopedics, specifically arthroscopy, angular limb correction and fracture repair.  

Limb deformities in foals are developmental orthopedic conditions, that can be subdivided into 2 major groups: 1) angular limb deformities, in which there is deviation, primarily in the frontal plane, originating at a joint and/or growth plate and 2) flexural limb deformities, in which there is persistent hyperflexion or hyperextension of the limb. 

These conditions may be acquired or congenital and the etiology is multifactorial.  Early appropriate intervention is the key to the best outcome. Angular limb deformities are relatively common in foals and strategies for management, including surgical techniques, are well established.  Early recognition, diagnosis and monitoring are essential in order to ensure optimal outcomes. 

In cases of severe deformities that fail to respond adequately to conservative approaches (restricted exercise, splints, corrective hoof trimming and shoeing) other treatments such as timely surgery may be used.  Transphyseal screws are effective for the corrections of both forelimb and hindlimb limb deformities.  Flexural limb deformities can be treated conservatively with the mainstays of limited controlled exercise, nursing care, manipulation of the foot with trimming/shoes, splinting/casting and pain management.

Surgical intervention is typically recommended when conservative treatment is not effective or for severe or rapidly worsening deformities. The goal of surgery is to release tension in the restrictive musculotendinous unit, allowing for greater stretch and more normal range of motion of the affected joint. 

In conclusion, all the contributors provided the participants a very interesting and illuminating day.  This event highlighted the lengths that all stakeholders and the veterinary profession are taking to constantly improve the health and wellbeing of the horses and the health of the race industry.  








Sports nutrition - Horses and humans - What parallels can we draw?

SPORTSNUTRITIONHorses and humansWhat parallels can we draw?NutritioN significantlyinfluences athleticperformance – at least thisis what a recentinternational olympicCommittee (ioC) statement on humansports nutrition has stated. they have alsoadvised…

Nutrition significantly influences athletic performance – at least this is what a recent international olympic Committee (ioC) statement on human sports nutrition has stated. they have also advised that all athletes should adopt specific nutritional strategies before, during, and after training and competition to maximize both their mental and physical performance and recovery. this may not seem earth shattering, but perhaps the significance is that nutrition is held in such high regard as a factor that helps athletes attain optimum exercise performance. Within horseracing, we have tended to regard nutrition as being ‘the icing on the cake’ and perhaps not fundamental to performance. So are there any pointers that we can draw from the approach to sports nutrition in human athletes?

By Catherine Dunnett Bsc, Phd

First Published (20 April 2011 - Issue 20)